- Acharya , S. , Dutta , S. and Myrum , T.A. 1998 . Heat Transfer in Turbulent Flow Past a Surface-Mounted Two-Dimensional Rib . J. of Heat Transfer , 120 : 724 – 734 .
- Berner , C. , Durst , F. and MeEligot , D.M. 1984 . How Around Baffles . ASME Journal of Heat Transfer , 106 : 743 – 749 .
- Dutta , P. 1997a . Cooling Opportunity in Advanced Turbine System (ATS) Row OneVane , Clemson, SC : A Report on Industrial Projects Submitted to the Advanced Gas Turbine Systems Research .
- Dutta , P. 1997b . Innovative Heat Transfer Enhancement with Inclined Solid and Perforated Baffles , Columbia, SC : University of South Carolina . MS Thesis
- Dutta , P. and Dutta , S. 1998 . Effect of Baffle Size, Performation, and Orientation on Internal Heat Transfer Enhancement . Int. J. Heat Transfer , 41 : 3005 – 3013 .
- Dutta , S. , Dutta , P. , Jones , R.E. and Khan , J.A. Experimental Study of Heat Transfer Coefficient Enhancement with Inclined Solid and Perforated Baffles . 1997 International Mechanical Engineering Congress and Exposition (IMHCH) . Nov. 16-21 , Dallas, TX.
- Dutta , S. , Dutta , P. , Jones , R.E. and Khan , J.A. 1998 . Heat Transfer Coefficient Enhancement with Perforated Baffles . ASME Journal of Heat Transfer , 120 : 795 – 797 .
- Florschuetz , L.W. , Truman , C.R. and Metzger , D.E. 1981 . Stream-Wise Flow and Heat Transfer Distributions for Jet Array Impingement with Crossflow . ASME Journal of Heat Transfer , 103 : 337 – 342 .
- Fushinobu , K. , Majumdar , A. and Hijikata , K. 1995 . Heat Generation and Transport in Submicron Semiconductor Devices . ASME Journal of Heat Transfer , 117 : 25 – 31 .
- Gau , C. and Lee , C.C. 1992 . Impingement Cooling Flow Structure and Heat Transfer along Rib-Roughened Walls . International Journal of Heat and Mass Transfer , 35 : 3009 – 3020 .
- Goldstein , R.J. and Seol , W.S. 1991 . Heat Transfer to a Row of Impinging Circular Air Jets Including the Effect of Entrainment . International Journal of Heat and Mass Transfer , 34 : 2133 – 2147 .
- Goldstein , R. J. and Timmers , J.F. 1982 . Visualization of Heat Transfer from Arrays of Impinging Jets . International Journal of Heat and Mass Transfer , 25 : 1857 – 1868 .
- Han , J.C. 1984 . Heat Transfer and Friction in Channels with Two Opposite Rib-Roughened Walls Turhulators . ASME Journal of Heat Transfer , 106 : 774 – 781 .
- Han , J.C. 1988 . Heat Transfer and Friction Characteristics in Rectangular Channels with Rib Turbulators . ASME Journal of Heat Transfer , 110 : 321 – 328 .
- Han , J.C. , Park , J.S. and Lei , C.K. 1985 . Heat Transfer in Channels with Turbulence Promoters . ASME Journal of Engineering for Gas Turbine and Power , 107 : 628 – 635 .
- Han , J.C. , Huang , J.J. and Lee , C.P. 1993 . Augmented Heat Transfer in Square Channels with Wedge-Shaped and Delta-Shaped Turbulence Promoters . Enhanced Heat Transfer , 1 : 37 – 52 .
- Han , J.C. , Zhang , Y.M. and Lee , C.P. 1991 . Augmented Heat Transfer in Square Channels with Parallel, Crossed and V-shaped Angled Ribs . Transactions of the ASME , 113 : 590 – 596 .
- Han , J.C. and Zhang , P. 1991 . Effect of Rib Angle Orientation on Local Mass Transfer Distribution in a Three-Pass Rib Roughened Channel . ASME Journal of Turbomachinery , 113 : 123 – 130 .
- Hinton , H. Jason . 2001 . Heat Transfer Enhancement with Inclined Baffles and Ribs , Columbia, SC : University of South Carolina . MS Thesis
- Huang , L. and El-Genk , S.M. 1994 . Heat Transfer of an Impinging Jet on a Flat Surface . International Journal of Heat and Mass Transfer , 37 (13) : 1915 – 1923 .
- Hwang , J.J. and Liou , T.M. 1995a . Heat Transfer and Friction in a Low-Aspect-Ratio Rectangular Channel with Staggered Perforated Ribs on Two Opposite Walls . ASME Journal of Heat Transfer , 117 : 843 – 850 .
- Hwang , J.J. and Liou , T.M. 1995b . Effect of Permeable Ribs on Heat Transfer and Friction in a Rectangular Channel . ASME Journal of Turbo Machinery , 117 : 265 – 271 .
- Ichimiya , K. , Katayama , M. , Miyaza , T. and Kondoh , H. 1991 . Experimental Study on Effects of a Single Porous-Type Roughness Elements on a Parallel Plate Duct . Experimental Heat Transfer , 4 : 319 – 330 .
- Kline , S.J. and McClintock , F.A. 1953 . Describing Uncertainties in Single Sample Experiments . Mechanical Engineering , 75 : 385 – 387 .
- Kutscher , C.F. 1994 . Heat Exchange Effectiveness and Pressure Drop for Air Flow Through Perforated Plates with and without Crosswind . ASME Journal of Heat Transfer , 116 : 391 – 399 .
- Lopez , J. R. , Anand , N. K. and Flecher , L. S. A Numerical Analysis of Laminar Convective Heat Transfer in a Three-Dimensional Channel with Baffles . Proceedings of the Third U.S. National Congress on Computational Mechanics . Dallas, TX. Vol. 1 , pp. 406 – 416 .
- Martin , H. 1977 . Heat and Mass Transfer between Impinging Gas Jets and Solid Surface . Advances in Heat Transfer , 13 : 1 – 66 .
- Mohanty , A.K. and Tawfek , A.A. 1993 . Heat Transfer Due to Round Jet Impinging Normal to a Flat Surface . International Journal of Heat and Mass Transfer , 36 : 1639 – 1647 .
- Rabas , T.J. and Arman , B. 1993 . The Influence of the Prandtl Number on the Thermal Performance of Tubes with Separation and Reattachment Enhancement Mechanism . Journal of Enhanced Heat Transfer , 1 : 5 – 21 .
- Saffar-Avval , M. and Damangir , E. 1995 . A General Correlation for Determining Optimum Baffle Spacing for All Types of Shell and Tube Exchangers . International Journal of Heat and Mass Transfer , 38 : 2501 – 2506 .
- Scott , R.K. 1996 . Hot Cascade Test for Row-One Vane , Report on Test Plan of Westinghouse Electric Corporation Orlando, Florida
- Slayzak , S.J , Viskanta , R. and Incropera , F.P. 1994 . Effect of Interactions Between Adjoining Rows of Circular. Free Surface Jets on Local Heat Transfer from the Impingement Surface . ASME Journal of Heat Transfer , 116 : 88 – 95 .
- Sparrow , E.M. and Lovell , V.J. 1980 . Heat Transfer Characteristics of an Obliquely Impinging Circular Jet . Journal of Heat Transfer , 102 : 202 – 209 .
- Tanasawa , I. , Nishio , S. , Takano , K. and Tado , M. "Enhancement of Forced Convection Heat transfer in Rectangular Channel Using Turbulence Promoters," . Proceedings of ASME-JSME Thermal Engineering Joint Conference . pp. 395 – 402 .
- Tien , C.L. and Chen , G. 1994 . Challenges in Microscale Conductive and Radiative Heat Transfer . ASME Journal of Heat Transfer , 116 : 799 – 807 .
- Treuren , K.W.V. , Wang , Z. , Ireland , P.T. and Jones , T.V. 1994 . Detailed Measurement of Local Heat Transfer Coefficient and Adiabatic Wall Temperature Beneath an Array of Impinging Jets . ASME Journal of Turbo Machinery , 116 : 369 – 374 .
- Values , E.A. , Patrick , M.A. and Wragg , A.A. "Radial Heat Transfer of Convective Heat Transfer Coefficient between an Axisymmentric Turbulent Jet and a Hat Plate Held Normal to the How." . Proc. of Sixth Heat Transfer Conference . Vol. 5 , pp. 297 – 303 .
- Zhang , Y.M. , Gu , W.Z. and Han , J.C. 1994 . Heat Transfer and Friction in Rectangular Channels with Ribbed or Ribbed-Grooved Walls . ASME Journal of Heat Transfer , 116 : 58 – 65 .
Enhancement of Heat Transfer with Inclined Baffles and Ribs Combined
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